IBM RackSwitch G8316 Version 7.7.5.0 (Released August 2013) ** Changes since the 7.7.3.0 release ** Enhancements: None Changes: - Dynamic link aggregation (LACP) ports that are not able to converge with peer ports will now result in a link-down state. This will occur when ports configured as members of an LACP trunk are connected to non-LACP ports. This is expected behavior. When connecting different IBMNOS products using LACP ports, it is recommended to install complimentary firmware versions (e.g., 7.7.5) on each device to ensure matching LACP behavior. Fixes: - Inefficiencies in the SNMP-processing code could result in high CPU utilization, SNMP client time-outs, protocol flaps, or a switch reset by the Hardware Watchdog. (66769, 70649) - User-configured ACL Deny rules were not being respected for packets with a Layer-4 (TCP) port of 22 or 23 (i.e., SSH and Telnet, respectively). (69126 / XB202484) - A prolonged period of high CPU utilization can lead to protocol-thread starvation. In one such case, LACP PDUs were not being sent by the CPU, leading to the break down of the LACP trunk forming the ISL in a vLAG topology. The ISL trunk ports that had previously been in the STP Discarding state would then errantly go into the Forwarding state, resulting in flooding of STP BPDUs into the network, and the inevitable network loop. (70887) - A hang of the Switch's I2C bus could occur, leading to a reset of the Switch by the hardware watchdog. (71721) - The SNMP dot1qVlanCurrentEntry OID was not being populated, resulting in SNMP Walks being stuck indefinitely at that point. (71785) - Disabling LACP (from the peer device) on a member port of an LACP trunk that also has STP disabled would result in the port being errantly displayed as FORWARDING in the output of the "show spanning-tree stp" command (and via the BBI), when in fact the port would be in the BLOCKING state (as designed). (71805, 71822) - Deleting the LACP key (from the peer device) on a member port of an LACP trunk that also has STP disabled would result in the port errantly going into the FORWARDING state. (71841) - With STP in PVRST mode and with a high active-port/STG product, a memory leak could occur while processing BPDUs (this was demonstrable with 47 ports active and more than 127 STGs configured per port). Over time, the memory leak could lead to a reset of the switch by the Memory Monitor. (71844) - A crash would occur when issuing the "show ufp info vport" command without explicitly specifying a vport number. (71951) - A watchdog timeout could occur if an IGMPv3 Report packet was received with the invalid source-IP address of 0.0.0.0. (71749) - Attempting to set port speed via the CMM would fail. (XB171317) - If the CMMs had "Failover on Physical Network Link" enabled (default), and the network link of the Active CMM went down, ports INTB1 and INTB2 could get disabled when the Standby CMM became active. (XB172285) - An IP address could not simultaneously be configured as a global DHCP server address, and a broadcast-domain DHCP server address. (XB172381) - A crash would occur while handling an SNMP “Get” Request for the Object that contains UFP information pertaining the switch (OID 1.0.8802.1.1.2.1.4.1.1.12.2700.65.4). (XB194463, XB202919) - A crash could occur if an FCoE-related CLI command was issued while the external management port was being flooded with packets. (XB199890) - If in Stacking mode, the switch would no longer receive time-sync updates from NTP servers over IPv6 interfaces after a CMM failover. (XB200147) - NTPv3 authentication information was being added to outgoing NTP Client Requests, even when authentication was disabled on the Switch. The consequence was that NTP servers that do not support authentication would discard the requests (i.e,, not respond to the Client Requests). (XB204541) - A crash could occur while handling an HTTPS request if the connection to the client was suddenly terminated while handling the transaction. (XB205895) - If the switch's Hostname was used to access the switch via BBI (i.e., relying on DNS instead of inputting the raw IP address), attempting to perform an image upgrade would result in redirection to a blank page. (XB206876) =================================================================================== IBM Rackswtch G8316 7.7.3.0 (Released, June 2013) ------- Enhancements: Enhanced Password security -------------------------- This feature provides stronger login enforcements for userIDs and password by forcing the local user passwords to be case sensitive, 8-64 character mix of uppercase letters, lowercase letters, numbers, and special characters, including at least one of each. Configurable port for SFTP -------------------------- This enhancement provides an option to perform SFTP operations on the switch using port numbers that can be configured explicitly (different from standard port 22) Microburst Detection -------------------- Microburst or congestion detection and control per port basis from ingress point of view based on shared memory usage and statistics logs per port per queue basis from egress point of view. DHCP Option 7 and option 12 --------------------------- These features enhance the DHCP client support on the switch to support Option 12 which defines the configuration of hostname and Option 7 which is used to get the syslog server address from DHCP server. Duplicate IP Detection ---------------------- The switch uses a simple mechanism to detect if two hosts on the same subnetwork are using the same IPv4 address at the same time. The switch sends a gratuitous ARP request for its own IP address. If it receives an ARP response, it sends a syslog message with the IP address and MAC address of the host that is using its IP address. OpenFlow 1.0 ------------ OpenFlow support has been added in this release. Hotlinks + STP -------------- In prior releases, STP needs to be disabled globally when Hotlinks feature is configured. This feature removed this limitation of having to globally disable STP. BGP multipath relax ------------------- This functionality allows load balancing across different autonomous system paths that have equal AS path length. vLAG+PIM Dense Mode ------------------- Enable the PIM protocol over the vLAG topology in dense mode for efficient multicast forwarding.